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Sono Hisashi,Takaaki Ueno,Keita Okabe,Kiyoshi Tomimatsu 한국디자인학회 2010 한국디자인학회 학술발표대회 논문집 Vol.2010 No.10
The purpose of this paper is to propose new usage of the web site where the environmental sensor data named Pachube (or also known as patch bay) is used and shared. Pachube which is made by Usman Haque is able to see real-time sensor data (temperature, humidity, force of the wind, electric power, etc.) from many parts of the world. Using Pachube, everyone can acquire information on the environmental sensor data. In addition, everyone can input the sensor data to it. Informations are up-loaded and updated to Pachube in real time. Therefore, it is also possible to send and receive the sensor data in real time. In this paper, we actually input the wind sensor data to Pachube, and the sensor data is shared with the person in all parts of the world. Using this method, we devised the new method of using Pachube . In addition, we thought that it will help user to understand the environmental issue. Therefore, we produced the serious game by using Pachube. The serious game doesn't aim at the entertainment. It is a genre of the computer game that is aimed for the education and the medical treatment. We thought that the user will be able to understand the environment sensor data that had been happily visualized from changing it into the game. The user can experience the environment in the world while playing the game. The difficulty of the game changes according to time zone and the season because the environment sensor data changes in real time. Therefore, an elemental difference from a usual game is included in this game. As the content of the game, it is the content that young and old, man and woman can enjoy because of its simplicity, i.e. a game of avoiding obstacles.
Atsushi Masuda,Minoru Akitomi,Masanao Inoue,Keizo Okuwaki,Atsuo Okugawa,Kiyoshi Ueno,Toshiharu Yamazaki,Kohjiro Hara 한국물리학회 2016 Current Applied Physics Vol.16 No.12
Processes for potential-induced degradation (PID) and recovery phenomena were characterized using ptype multicrystalline Si photovoltaic modules and by PID test method using Al plate. Very severe PID phenomena accompanied with a drastic reduction in both open-circuit voltage and shunt resistance were observed within only several hours. It was found that PID phenomena are strongly accelerated at higher temperature and under higher negative-voltage application, on the other hand, PID phenomena do not necessarily require high humidity in this test method using Al plate. Na diffusion from the cover glass to the Si cell was observed after PID test. Recovery process from PID was also observed by applying positive voltage. However, complete recovery of photovoltaic performances was observed at room temperature in the dark without positive-voltage application for test modules with PID although recovery process requires a few hundred days.